Mitochondria, or the "powerhouse of the cell" produces energy by breaking nutrients and creating a series of biochemical reactions in a process called cellular respiration. The mitochondria essentially makes ATP, a rich energy currency...
Answer is D
The mitochondria in cells functions to produce energy, specifically adenosine triphosphate (ATP), via a process called cellular respiration. Thus, mitochondria are often called the 'powerhouse' of the cell.
Explanation:The function of mitochondria in cells is to produce energy. This crucial organelle, often referred to as the powerhouse of the cell, is responsible for generating adenosine triphosphate (ATP) - the primary energy currency used in cellular processes. The mitochondria achieves this through a process known as cellular respiration, where it breaks down glucose and other organic molecules to produce ATP. This is fundamentally significant for the correct functioning and survival of cells in all multi-cellular organisms including humans. So, the correct answer to your question is 'D: Producing energy'.
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How does the ocean help lessen the effect of global warming?
a. it absorbs a lot of carbon.
b.it is home to diverse ecosystems.
c. it has regular tides that cool the earth.
d. it routinely erodes shores covering more land with water.
Which compound is released by photosynthesis and used in aerobic respiration
ATP
-Photosynthesis makes the glucose that is used in cellular respiration to make ATP. The glucose is then turned back into carbon dioxide, which is used in photosynthesis. -While water is broken down to form oxygen during photosynthesis, in cellular respiration oxygen is combined with hydrogen to form water.
which of these is a density-dependent factor
A. wind
B.flood
C. fire
D. space
Answer: D. space
Explanation:
The density dependent factor is the one which affects the population of a species in an area with respect to the density of the population. That is more the size of the population or more density more will be the effect of the factor. The examples of density dependent factors include food, disease, predation, space, migration and others.
Among the options given, space is the correct, this is due to the fact that the population may experience lack of space with the increase in the size of the population.
Density-dependent factors are environmental factors that affect a population's size and growth rate based on the density or number of individuals in a given area. The correct answer is D. space.
A density-dependent factor is an environmental factor that influences population dynamics based on the density of individuals within a given area. One such factor is space availability. As a population grows, the demand for space increases and individuals must compete for limited resources and territory. This competition can lead to increased stress, reduced reproductive success, and higher mortality rates, ultimately influencing the population's growth rate.
Limited space can restrict the establishment of new individuals, restrict movement, and limit access to crucial resources like food, shelter, and breeding sites.
Therefore, space availability acts as a density-dependent factor, regulating population size and growth based on the number of individuals within a given space. The correct answer is D. space.
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(05.02 MC)
The diagram below shows a marine food chain with the amount of energy available to each trophic level in parentheses. Why does the amount of energy decrease as you move up the chain?
A pyramid showing the marine food chain indicating the amount of energy available to each trophic level. At the top of the pyramid, level 5 shows Tuna at an energy level of 0.5. Trophic level 4 has Mackerel at an energy level of 5, trophic level 3 has herring at an energy level of 50, followed by trophic level 2 with zooplankton at an energy level of 500 and phytoplankton at the bottom with an energy level of 2500.
A: Decomposers are using up the energy between each trophic level.
B: Individual organisms at the upper trophic levels require less energy to survive than those at the lower ones.
C: Producers use most of the energy before it can reach the upper levels.
D: Some energy is lost as heat or not consumed by organisms at the next trophic level.
i believe the answer is B comment if i was right or not
Answer:
D: Some energy is lost as heat or not consumed by organisms at the next trophic level.
Explanation:
As you can see from the diagram, the energy in a food chain is passed in a unidirectional way, starting with producers, passing through consumers and ending between decomposers.
The amount of energy becomes smaller and smaller as the trophic level rises, as a result, the higher trophic levels have less energy. This is because the transfer of energy from the lowest to the highest trophic level causes a loss of energy in the form of heat, in addition, often the energy is not consumed by the organism of the next trophic.
What is a chemosynthetic organism?
Chemosynthetic organisms, or chemoautotrophs, are autotrophs that synthesize their own food using energy from inorganic molecules, vital for ecosystems where sunlight is absent, such as deep-sea vents. They play a key role in their environments by being primary producers, necessary for the survival of diverse communities in extreme conditions.
A chemosynthetic organism, also known as a chemoautotroph, is an organism that can synthesize its own food using energy derived from inorganic molecules rather than sunlight, which is used by photosynthetic organisms. Unlike their photosynthetic counterparts, chemosynthetic organisms thrive in environments where sunlight is not available, such as in the deep sea, around hydrothermal vents. Here, they utilize inorganic molecules, such as hydrogen sulfide or methane, as an energy source to produce organic compounds necessary for their survival.
These organisms are crucial for the ecosystems they inhabit as they form the basis of the food web in those regions. Deep-sea hydrothermal vents, for example, host diverse communities that rely on the organic compounds produced by chemosynthetic bacteria. Without these autotrophs, the unique ecosystems of deep-sea vents and other similar environments would not exist, highlighting the critical role of chemosynthesis in enabling life in extreme conditions.
Both photosynthetic and chemosynthetic organisms are classified as autotrophs, which are essential for all ecosystems. They serve as primaries producers, converting inorganic carbon into organic matter that becomes the foundation for the sustenance of other organisms in the ecosystem.
Why are mitochondria important
Known as the “powerhouse of the cell” they are primarily responsible for converting the air we breathe and the food we eat into energy that our cells can use to grow, divide and function. ... Mitochondria produce energy by turning glucose and oxygen into a chemical called ATP.
they store calcium ions, helping cells maintain the right concentration of these electrically charged particles involved in blood clotting, muscle contraction and other important tasks. Mitochondria make the iron compound that allows red blood cells to ferry oxygen to the body's tissues.
Which type of fault is under compression
Answer:
The correct answer is reverse fault.
Explanation:
The kind of fault witnessed under compression is known as a reverse fault. A reverse fault takes place when two Earth's crust pieces are pushed together. The location at which the collision between the two tectonic plates takes place is called a convergent boundary. When the collision between these two plates takes place, the formation of a nearly vertical fault plane takes place. This segment is called the hanging wall of the fault.
A reverse fault is under compression.
How do we explain?A reverse fault is a type of fault where the hanging wall moves up relative to the footwall. This type of fault is formed when two plates are pushed together, or when one plate is subducted under another plate.
The characteristics of reverse faults include:
The hanging wall is uplifted.The footwall is downdropped.The fault plane dips in the opposite direction of the relative movement of the blocks.The fault trace is typically curved.Reverse faults are often associated with thrust belts and fold-and-thrust belts.
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How many bones are in a horses skeleton
205 bones i believe is your answer
An adult horse's skeleton typically has around 205 bones. The horse's endoskeleton, like humans', includes an axial and appendicular skeleton, supporting the body and allowing for movement.
The average adult horse skeleton contains approximately 205 bones, though this number can vary slightly due to individual differences such as the presence of additional ribs or the fusion of certain bones. Horses, like humans, have an endoskeleton that serves multiple functions, including providing structural support, enabling movement, protecting internal organs, and serving as a reservoir for minerals.
Identical in its overall function to the human skeletal system, the horse's skeletal system is also divided into two main parts: the axial skeleton and the appendicular skeleton. The evolutionary history of horses shows a significant change in the structure of their limb bones and teeth, which has been documented through fossil evidence over a period of approximately 57 million years.
1.Give the abbreviations of the elements that make up Carbohydrates
2.Name the monomer for Carbohydrates
3.Name the main function of Carbohydrates in living organisms
4.Name a specific Carbohydrate (that is different from lesson or submitted by other 5.students) and include a picture of this Carbohydrate
Answer:
1. A carbohydrate is a biomolecule made up of carbon, hydrogen, and oxygen which generally have an empirical formula [tex]C_{m}(H_{2}O)_{n}[/tex] where m and n may differ.
Thus, the elements are carbon (C), hydrogen (H), and oxygen (O).
2. Monomer is defined as a molecule which bonds with identical molecule to form a chain or polymer.
Different monomer units such as glucose, fructose, galactose, and xylose are used to form different types of polymers or polysaccharides such as amylose, cellulose, glycogen et cetera.
3. The main function of carbohydrate in living organism is to provide energy.
4. Let us take an example of sucrose. It is a disaccharide formed by two monomer units glucose and fructose. The structure is shown in the figure below.
According to Craik and Lockhart (1972), the three levels of processing are __________, _________, and _________. A. sensory . . . shallow . . . deep B. sensory . . . short . . . long C. shallow . . . intermediate . . . deep D. short . . . deep . . . long
The three levels of processing according to craik and lockhart is are Shallow, Intermediate,deep.
Answer: C. shallow . . . intermediate . . . deep.
Explanation:
Craik and Lockhart gave the model of levels of processing in the year 1972.The model provides a description of about the depth of processing which is required for memory and gives a prediction that the deeper a piece of information gets processed, the memory trace will last for a longer duration.According to this model, the processing takes place in three steps, shallow, intermediate and deep which together involves structural, phonemic and semantic processing.The Cold War resulted from?
The European international system collapsed, with the Second World War, and the results of that war led to radical transformations in the form of the distribution of power at the global level. The European countries, "the poles of the old regime, the Axis and the Allied Powers" emerged from the Second World War exhausted, economically, militarily and politically. , And then fell positions in the ladder hierarchy of international forces, while emerged two new global poles, the United States of America and the Soviet Union, and in the new situation are only able to determine the image of the entire international system, with their own capabilities. Thus, the international pattern shifted to its image, which became known as the bipolar international order. .
The sectarian strife between the two poles has had a profound effect on deepening the differences between them, and in the emergence of a new variable that has played a prominent role in the international struggle, the ideological factor. This sectarian dispute has divided the developed world into two main blocs: the Western "capitalist" bloc, The United States of America, the West European countries, Canada and Japan, and the communist bloc, led by the Soviet Union and by the Eastern European countries. These are both the NATO and the Warsaw Pact.
Both poles in their struggle with the other on the land of the Third World resort to indirect means, in order to avoid direct armed contact between them. Examples include diplomacy and economic propaganda, alliances, pro-government regimes, and the overthrow of hostile regimes. All this has resulted in the so-called Cold War.
This concept was first used by Prince Juan Manuel in the fourteenth century and then by the American economist Bernard Baruch "1870-1965" in early 1947 and became a common expression with the American journalist Walter Lippman (1889-1974) In general, the state of tension between the western and eastern blocs formed in 1945 was described in the wake of World War II.
This conflict has spread since the end of the Second World War, from the mid-1940s to the end of the 1980s. The collapse of the Soviet Union in 1991 can be seen as the end of the Cold War, although many of the ideological bases of this war had disappeared before.
Answer:
D. lack of trust between the United States and the Soviet Union
Explanation:
I just did it open ape.x its correct
ANSWER CHOICES
A. aggressive British behavior in Europe
B. aggressive Soviet behavior in the Middle East
C. U.S. nuclear power
D. lack of trust between the United States and the Soviet Union
Which good, once consumed by an individual doesn’t, reduce the ability of another individual to consume it? A(n) good is a product that, once consumed by an individual, doesn’t reduce the ability of another individual to consume
The best answer would be:
1. Private goods
2. Public goods
Private goods are scarce, or in other words very limited. These are goods that are owned by an individual that is obtained in exchange of money. Now this limits the ability of another to consume it. Private goods are categorized as excludable and rivalrous.
Because it is limited, not anyone can get it, thus creating competition.
Public goods are the opposite. Anyone can use it and anyone can obtain it. For example, air, public defense, streetlights. All these things are obtainable and even when one will consume, there is more for others to make use of.
I hope this did not confuse you more. Good luck!
Answer:
Public good
Explanation:
Public good is a property belonging to some Estat, financed by public money. The main characteristic of public goods is that they do not establish rivalry and exclude no one. This means that it is impossible for a public good user to exclude other users from benefiting from the good. It also means that when a person uses the good, he does not prevent others from using it as well.
Fungi can be beneficial or destructive. One type of fungi, the smuts, attacks grain plants, like corn and wheat, that are grown throughout the United States. The smut diseases will MOST likely result in
A) huge crop losses.
B) greater crop yields.
C) more grain produced.
D) a shorter growing season.
The correct answer choice is A.) Huge crop losses. B and C would be beneficial, and as such would not negatively harm farmers and grain plants. D would be the only other logical answer choice, but a shorter growing season could just as easily be caused due to other external forces as well, such as weather conditions, average temperatures, the demand for grain products, and other diseases or pests. Hope this helped!
what function do plants have in the forest in the carbon cycle
Take in carbon and make glucose, starch, cellulose, and other carbs.
Does ADP have stored chemical energy usable for the cell??
ADP does not have stored chemical energy usable for the cell.
ADENOSINE TRIPHOSPHATE (ATP)
ATP is a biological molecule that stores and releases chemical energy for use by living cells. Adenosine triphosphate (ATP) stores energy in the phosphoanhydride bonds that holds each phosphate group of the ATP molecule together. Energy is released for use when a phosphate group is released from the ATP molecule to form an ADP molecule. This means that ADP does not store energy. Therefore, ADP does not have stored chemical energy usable for the cell but rather ATP does.Learn more at: https://brainly.com/question/20704487?referrer=searchResults
Which properties of water plays an important role in the movement of water from the roots to the leaves in plants? universal solvent high specific heat high heat of vaporization capillary action
Answer: Capillary action
Explanation:
The water from the soil enters into the roots then to the leaves in plants by capillary action. The capillary action involves the movement of the water from the soil to the parts of the plants. The molecules of water are attracted to each other this property is called as cohesion. The molecules of water attach themselves with other molecules. This property is called as adhesion. In plants the adhesion causes the water to attach with the tissues of the plant. Cohesion causes the molecules of water to stick together. The water is taken upward from the roots to the entire plant by these two properties like a tube of water. The water moves against the gravitational force due to this capillary action.
what is the term biology mean ?
Biology is the study of living organisms (animals, plants, humans, bacteria, the like) and is divided into numerous different fields of science; behavior, anatomy (the bodily structure of living organisms), morphology (the study of the forms of living organisms), origin, distribution, and physiology (normal functions and activities of living organisms and their parts).
Feel free to ask me anything else regarding your question or my answer!
Which most likely happen to the population of deer in 1963
A. The population increased its death rate.
B. The population exceeded past carrying capacity.
C. The population crashes down to 0.
D. The population steadily increased to get closer to carrying capacity.
Answer:
The correct answer is D. The population steadily increased to get closer to carrying capacity.
Explanation:
Carrying capacity is the maximum capacity of an environment to support a population of species. Carrying capacity denotes the highest population size of a species in an environment and population beyond this carrying capacity cannot be supported by any ecosystem because of the limiting of resources, area and increasing competition due to overgrowing population.
In this graph, the population is increasing steadily to get closer to carrying capacity and once it reaches the carrying capacity the rise in population will stop and then the graph will look like logistic growth graph.
So, the correct answer is D. The population steadily increased to get closer to carrying capacity.
Answer:
The population steadily increased to get closer to carrying capacity.
Explanation:
What type of stress occurs when plates move apart?
Tensional Stress Happens When The Two Plates Are Moving Away From Each other
Hope That Helps!
The suns heat reaches earth by what means
A.) conduction
B.) convection
C.) insulation
D.) radiation
Answer D) Radiation
Answer comes from diagram shown in question
Answer: radiation
Explanation:
Which biological process would then utilize this dissolved carbon dioxide?
The cells did not have enough oxygen, so they used fermentation as a source of energy.
The biological process that utilizes dissolved carbon dioxide is photosynthesis, where autotrophs convert carbon dioxide and water into glucose and oxygen. Dissolved carbon dioxide can also be transported in the blood, converting to bicarbonate to help maintain pH levels in the body.
Explanation:The biological process that utilizes dissolved carbon dioxide is primarily photosynthesis. Photosynthesis is carried out by autotrophs, organisms that can make their own food, such as plants and some bacteria. They convert light energy, usually from the sun, into chemical energy in the form of glucose. During this process, autotrophs use carbon dioxide and water to produce glucose and oxygen. This carbon dioxide can be directly from the atmosphere or in its dissolved form in water. When carbon dioxide is dissolved in water, it can react to become bicarbonate and hydrogen ions, which can also be utilized in the process.
Another reference in the biological carbon cycle is that carbon dioxide dissolves in the blood and is transported away from the tissues. This dissolved carbon dioxide can be converted into bicarbonate, which acts as a buffer in the blood and helps maintain the pH levels in our body. This process, known as carbon dioxide transport, is vital for the functioning of various biological systems in animals, including humans.
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are this answers right?(13 points)
Which statement best describes the arrangement of silicon-oxygen tetrahedra in clay minerals?
A.random
B.sheets(answer)
c.spherical
d.tightly packed
(2)What is the main difference between sulfate minerals and sulfide minerals?
A
Sulfates lack sulfur compounds, whereas sulfides contain sulfur compounds.
B
Sulfates contain sulfur-oxygen compounds, whereas sulfides contain sulfur-metal compounds.
C
Sulfates contain sulfur-carbon compounds, whereas sulfides contain sulfur-oxygen compounds.(answer)
D
Sulfates contain sulfur compounds, whereas sulfides lack sulfur compounds.
(3)Carbon varies greatly as a mineral. It can form minerals as different as graphite and diamond.
1Points
Which descriptions explains carbon's versatility?
Select the 2 correct answers.
A
Due to its atomic structure of four valence electrons, carbon can combine easily with other elements.
B (answer)
Carbon's versatility is due to the specific conditions where it is found - temperature, pressure, and the presence of other silicate minerals with which it joins.
C
Carbon's ability to be weak or strong in different compounds is due to the number of valence electrons it shares.
D
Carbon always gives up all of its valence electrons, forming strong hydrogen bonds.(answer)
its the right anwsers
what is the capital of mexico
the capital of mexico is mexico city hope this helps
Mexico City
The capital of Mexico is Mexico City which is situated in the valley of Mexico. Mexico City is the oldest capital in the Americas and it is considered as the most populated area in Mexico. Mexico City was selected as the location of the Federal Government of Mexico in 1824. Then it was called Federal District but the name was changed to Mexico City on January 29, 2016.
why is then a tornado potentially so destructive
A tornado is potentially so destructive due to its high wind speeds and ability to cause significant damage to structures and landscapes.
- High wind speeds: Tornadoes are characterized by extremely high wind speeds, often exceeding 200 miles per hour (320 kilometers per hour), which can wreak havoc on anything in their path.
- Structural damage: Tornadoes can easily tear apart buildings, homes, and other structures, leading to extensive property damage and posing a significant risk to human life.
- Projectile debris: Tornadoes can hurl debris at high velocities, turning everyday objects into deadly projectiles that can cause further destruction and injury.
- Large size and reach: Some tornadoes can be several miles wide and travel long distances, covering vast areas and affecting numerous communities along their path.
- Unpredictability: Tornadoes can form rapidly and change direction unpredictably, making it difficult for residents to prepare or evacuate in time, increasing the potential for destruction and loss of life.
- Overall, the combination of high wind speeds, structural damage, projectile debris, large size, and unpredictability makes tornadoes incredibly destructive natural phenomena that can have devastating consequences for affected areas.
The complete Question is given below:
Why is then a tornado potentially so destructive? explain ?
In the human, the allele for brown eyes, B, is dominant over the allele for blue eye,b. Which combination of alleles shown below could result in a person with blue eyes?
which of these is most likely to result if biodiversity is lost in an ecosystem
increased ecosystem stability
decreased ecosystem resilience
increased artificial selection
decreased species richness
If biodiversity is lost in an ecosystem, it will lead to decrease in ecosystem resilience. Biodiversity loss is a major concern now. With the extinction of many species, ecosystem might collapse. Removing a single species can result in a partial collapse of the ecosystem. For example: honey bee colony collapse situation. Without honey bees, humans would struggle or fail to grow certain important crops. With more loss of biodiversity it may become hard for our very survival also.
Answer:
a loss of natural food sources
Explanation:
PLEASE HELP! EASY HEALTH QUESTION!!
A ________ is made up of organs working together.
Answer:
system
Explanation:
Answer: A system is made up of organs working together.
what types of hazards does toxicology deal with
[ Answer ]
Chemical and Physical Hazards
[ Explanation ]
Toxicology is the type of science that deals with nature, effects and poisons. Notice the name toxic, in toxicology. Toxic means poison or poisonous. They deal with chemical substances and they're affect on us humans, the earth and animals.
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Toxicology deals with environmental hazards such as air pollution and waste dumps, chemical hazards identifiable via hazard diamonds, biological hazards including toxins from animal venoms, and physical hazards like harmful radiation.
Explanation:Toxicology, the study of toxic substances, deals with different types of hazards which can be categorized into environmental, chemical, biological, and physical hazards.
Environmental Hazards
These include toxic waste facilities, garbage dumps, and other forms of environmental pollution. These exposures often affect the health and quality of life of individuals in those communities.
Chemical Hazards
Chemical hazards can be found in various settings such as laboratories or workplaces. They can be identified using the hazard diamond, which provides a summary of dangers associated with a specific substance.
Biological Hazards
Biological hazards, such as toxins from animal venoms, can pose risks to human safety but also have the potential for medicinal use.
Physical Hazards
Physical hazards can include exposure to harmful levels of radiation, as well as thermal and electrical hazards.
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Which layer of the earth’s atmosphere do we live in
Humans live in the layer of the atmosphere referred to as the troposphere. (Most of the mass of the atmosphere can be found in the troposphere.)
Final answer:
We live in the troposphere, the lowest layer of the Earth's atmosphere, which extends up to about 10 kilometers from the Earth's surface and where most human activities and weather events occur.
Explanation:
The layer of the Earth's atmosphere in which we live is the troposphere. It extends from the Earth's surface up to about 10 kilometers (6 miles) in altitude. The troposphere contains about 80% of the Earth's atmosphere by mass and is where most weather events originate. Virtually all human activities occur within this layer, including the peak of Mt. Everest which is the tallest mountain on the planet at about 5.6 miles (9 km) high.
Compare and contrast the structure of prokaryotic and eukaryotic cells
Prokaryotic and eukaryotic cells differ in various ways, including the presence of a true nucleus and membrane-bound organelles in eukaryotic cells.
Explanation:The structure of prokaryotic and eukaryotic cells differ in various ways. While both types of cells have a plasma membrane, cytoplasm, genetic material, and ribosomes, eukaryotic cells are typically larger and more complex. Eukaryotic cells have a true nucleus, membrane-bound organelles, and multiple chromosomes, whereas prokaryotic cells lack a nucleus and membrane-bound organelles and generally have a single, circular chromosome.
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